CS273543B1 - Electromagnetic device for bar iron withdrawal - Google Patents

Abstract

The device consists of a guiding bar, to which pole extensions, connected to cores, are adjoined to. Around the cores there are wound excitation coins. The first pole extensions, positioned along the guiding bars are of a circular cross section. The cross section of the second pole extensions in the point, where the guiding bar is divided, corresponds to the cross section of the guiding bar. The bottom of the guiding bar is lined with ceramic plates of 97 percent Al2O3.<IMAGE>

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic removal device for removing steel bars from conventional steels by β ferromagnetic properties, which are intended to cooperate, for example, with a straightener and a shearer for building steel.

A device for removing steel bars is known, which consists of a magnetic yoke and cores and pole pieces. Coils are wound around the cores. A guide is adjacent to the ends of the pole pieces. The guide is formed by a bottom with approximately U-shaped sidewalls. The bottom of the thus formed guide is fitted with a lining, the Dak bottom and sidewalls are made of non-magnetic material.

The disadvantage of the device is its magnetic misalignment and, consequently, the massive magnetic circuit and the large excitation coils with considerable power consumption.

The invention consists in that the first pole piece usmistěné along guide rails are of circular cross-section of the second pole pieces at the point of division corresponds to the sectional guide rails guide rail and the bottom guide rail is lined with ceramic plates of 97% Al ₂ 0 _3,

The magnetic circuit is designed so that when saturated in the material to be removed, the attractive force of the magnets is at least twice its own weight.

An advantage of the device according to the invention is that the circular cross-section of the pole pieces improves the centering of the material to be removed from the groove axis of the guide rail. Another advantage is lower weight of magnetic circuit and excitation coils and lower power consumption. Unloading the guide rail with ceramic plates increases its service life.

An example of an embodiment of the invention is shown in FIG. 1. FIG. 2 is a cross-sectional view of the apparatus at the first pole piece and FIG. 3 at the second pole piece.

The device for removing steel bars consists of a magnetic yoke 7 in the form of a flat bar, to which the poles formed by the cores 9 are connected with the pole extensions 1,

Around the cores 9 are wound driving coils 6. Adjacent to the pole pieces 6, 2 is a split guide bar 3, which is approximately U-shaped and consists of a bottom and sidewalls made of non-magnetic material. The bottom of the guide bar 3 is lined with ceramic plates 4 of 97% a1 ₂ 0 _{3 <}

The first pole pieces 1, which are located along the guide bar 3, are of circular cross-section. The second pole pieces 2, which are located at the point of division of the guide bar 3, are of square cross section and by means of which the guide bar 3 is connected by screw connections.

A specific device for removing bar steel with a diameter of 5.5 to 14 mm and for a ribbed steel of 12/14 mm diameter is provided in the length of 6 ra and 14 mm respectively. 12 with a number of poles 20, resp. 40. Pole length: 100 mm, pole pitch 300 mm. First pole pieces _! The second pole pieces have a square cross section of 20 x mm and are connected to the Core 9 with a cross section of 20 x 35 mm. The guide plate 3 with ceramic plates 4 forms a non-magnetic layer of 5 mm thickness between the pole pieces and the material to be removed. The overall configuration is designed such that when the saturation in the sampled rod is max. The poles of the sampling device are excited so that the adjacent poles always have the opposite polarity. The magnetic flux is closed by tracks 8 through the material 8 to be removed.

The device according to the invention can be used in the processing of bar steel with ferromagnetic properties, for example in straightening and shearing steel in the construction industry in the production of reinforcement.

Claims (1)

P (? E D M £ T INVENTION) Electromagnetic steel strip removal apparatus, comprising a magnetic yoke 3 Cores and pole pieces, in which coils are wound around the cores, and a split guide bar formed by a bottom with side panels of non-magnetic material adjoins the ends of the pole 273543 B1. that the first pole pieces (1) located along the guide bar (3) are of circular cross-section, the cross-section of the second pole pieces (2) at the point of division of the guide bar (3) corresponds to the cross section of the guide bar (3) and the bottom of the guide bar (3) pads (4) of 97% Al ^ O ^ ·